Mitsubishi Electric M70 Series Owner's manual

MELDAS and MELSEC are registered trademarks of Mitsubishi Electric Corporation.

Microsoft®and Windows®are either registered trademarks or trademarks of Microsoft Corporation in the United

States and/or other countries.

Intel®, Pentium® and Celeron® are either trademarks or registered trademarks of Intel Corporation and its

subsidiaries in the United States and other countries.

Other company and product names that appear in this manual are trademarks or registered trademarks of the

respective company.

Introduction

This manual describes the specifications of MITSUBISHI CNC M70 Series.

To safely use this CNC unit, thoroughly study the "Precautions for Safety" on the next page before use.

Details described in this manual

At the beginning of each item, a table indicating it's specification according to the model.

○ : Standard

△ : Optional

□ : Selection

☆ : Planning

The items that are not described in this manual must be interpreted as "not possible".

This manual is written on the assumption that all option functions are added.

Some functions may differ or some functions may not be usable depending on the NC system (software)

version.

General precautions

(1) When the contents of this manual is updated, the version (A, B, ...) on the cover will be incremented.

CAUTION

Precautions for Safety

Always read this manual, related manuals and attached documents before installation, operation,

programming, maintenance or inspection to ensure correct use. Understand all the conditions described in

this manual before using the unit. We rank the safety precautions into "DANGER", "WARNING" and

"CAUTION" for the manuals issued by Mitsubishi, including this manual.

Note that even items ranked as " CAUTION", may lead to major results depending on the situation. In

any case, important information that must always be observed is described.

Not applicable in this manual.

1. Items related to product and manual

The items that are not described in this manual must be interpreted as "not possible".

This manual is written on the assumption that all option functions are added.

Some functions may differ or some functions may not be usable depending on the NC system (software)

version.

2. Items related to start up and maintenance

Follow the power specifications (input voltage range, frequency range, momentary power failure time

range) described in this manual.

Follow the environment conditions (ambient temperature, humidity, vibration, atmosphere) described in

this manual.

Follow the remote type machine contact input/output interface described in this manual. (Connect a

diode in parallel with the inductive load or connect a protective resistor in serial with the capacitive load,

etc.)

If the parameter is used to set the temperature rise detection function to invalid, overheating may occur,

thereby disabling control and possibly resulting in the axes running out of control, which in turn may

result in machine damage and/or bodily injury or destruction of the unit. It is for this reason that the

detection function is normally left "valid" for operation.The parameter for the temperature rise detection

function will be validated forcibly when the NC unit is turned ON.

When there is a great risk that the user could be subject to fatalities or serious injuries if handling

is mistaken.

When the user could be subject to fatalities or serious injuries if handling is mistaken.

When the user could be subject to injuries or when physical damage could occur if handling is

mistaken.

DANGER

WARNING

CAUTION

DANGER

WARNING

CAUTION

Disposal

(Note) This symbol mark is for EU countries only.

This symbol mark is according to the directive 2006/66/EC Article 20 Information for end-

users and Annex II.

Your MITSUBISHI ELECTRIC product is designed and manufactured with high quality materials and

components which can be recycled and/or reused.

This symbol means that batteries and accumulators, at their end-of-life, should be disposed of

separately from your household waste.

If a chemical symbol is printed beneath the symbol shown above, this chemical symbol means that the

battery or accumulator contains a heavy metal at a certain concentration. This will be indicated as

follows:

Hg: mercury (0,0005%), Cd: cadmium (0,002%), Pb: lead (0,004%)

In the European Union there are separate collection systems for used batteries and accumulators.

Please, dispose of batteries and accumulators correctly at your local community waste collection/

recycling centre.

Please, help us to conserve the environment we live in!

CONTENTS

I General Specifications

1 System Basic Configuration Drawing .................................................................................................... I - 1

2 General Connection Diagram.................................................................................................................. I - 3

2.1 Without Touch Panel..........................................................................................................................I - 4

2.2 With Touch Panel...............................................................................................................................I - 5

3 List of Configuration................................................................................................................................ I - 7

3.1 List of Units........................................................................................................................................I - 8

3.2 Durable Parts...................................................................................................................................I - 10

3.3 Replacements..................................................................................................................................I - 10

3.4 List of Cables...................................................................................................................................I - 11

4 Environment Conditions ....................................................................................................................... I - 13

5 Hardware Specifications ....................................................................................................................... I - 17

5.1 Control Unit......................................................................................................................................I - 18

5.2 Display Unit......................................................................................................................................I - 28

5.3 Keyboard Unit..................................................................................................................................I - 31

5.4 Operation Panel I/O Unit..................................................................................................................I - 37

5.5 Remote I/O Unit...............................................................................................................................I - 48

5.6 Scan I/O Unit....................................................................................................................................I - 54

5.7 External Power Supply Unit .............................................................................................................I - 65

5.8 Manual Pulse Generator..................................................................................................................I - 68

5.9 Synchronous Feed Encoder ............................................................................................................I - 70

5.10 Optical servo communication repeater unit (FCU7-EX022)...........................................................I - 71

5.11 Precautions for Use of Commercially Available CF Cards.............................................................I - 74

II Functional S

p

ecifications

M70 T

yp

e

B

M70 T

yp

e

A

M70 T

yp

e

B

M70 T

yp

e

A

1. Control axes

II - 1

1.1 Control axes

II - 2

1.1.1 Number of basic control axes (NC axes)

○ 3 ○ 3 ○ 2 ○ 2 II - 2

1.1.2 Max. number of axes (NC axes + Spindles + PLC axes)

9 11 9 11 II - 2

1.1.2.1 Max. number of NC axes (in total for all the part systems)

4849II - 2

1.1.2.2 Max. number of spindles

2224II - 2

1.1.2.3 Max. number of PLC axes

6666II - 2

1.1.4 Max. number of PLC indexing axes

4444II - 3

1.1.5 Number of simultaneous contouring control axes

4444II - 3

1.1.6 Max. number of NC axes in a part system

4848II - 3

1.2 Control part system

II - 4

1.2.1 Standard number of part systems

1111II - 4

1.2.2 Max. number of part systems

○1 ○1 ○1 ○2 II - 4

1.3 Control axes and operation modes

II - 5

1.3.1 Tape (RS-232C input) mode

○○○○

II - 5

1.3.2 Memory mode

○○○○

II - 5

1.3.3 MDI mode

○○○○

II - 5

1.3.5 Front IC card mode

○○○○

II - 5

2. Input command

II - 7

2.1 Data increment

II - 8

2.1.1 Least command increment

II - 8

2.1.1.1 Least command increment 1µm

○○○○

II - 8

2.1.1.2 Least command increment 0.1µm

○○○○

II - 8

2.1.2 Least control increment

II - 9

2.1.2.1 Least control increment　0.01μm(10nm)

○○○○

II - 9

2.2 Unit system

II - 10

2.2.1 Inch/Metric changeover

○○○○

II - 10

2.2.2 Input command increment tenfold

○○

――II - 10

2.3 Program format

II - 11

2.3.1 Program format

II - 11

2.3.1.1 Format 1 for Lathe

――

○○

II - 11

2.3.1.2 Format 2 for Lathe

――

○○

II - 11

2.3.1.3 Special format for lathe

――

○○

II - 11

2.3.1.4 Format 1 for Machining center

○○

――II - 11

2.3.1.5 Format 2 for Machining center (M2 format)

○○

――II - 11

2.3.1.6 MITSUBISHI CNC special format

――

○○

II - 11

2.4 Command value

II - 12

2.4.1 Decimal point input I，II

○○○○

II - 12

2.4.2 Absolute/Incremental command

○○○○

II - 13

2.4.3 Diameter/Radius designation

――

○○

II - 15

3. Positioning/Interpolation

II - 17

3.1 Positioning

II - 18

3.1.1 Positioning

○○○○

II - 18

3.1.2 Unidirectional positioning

○○

――II - 19

3.2 Linear/Circular interpolation

II - 21

3.2.1 Linear interpolation

○○○○

II - 21

3.2.2 Circular interpolation (Center/Radius designation)

○○○○

II - 22

3.2.3 Helical interpolation

○○○○

II - 24

3.2.4 Spiral/Conical interpolation

―

○

――II - 26

3.2.5 Cylindrical interpolation

○○○○

II - 29

3.2.6 Polar coordinate interpolation

――

○○

II - 30

3.2.7 Milling interpolation

―――

○

II - 31

MITSUBISHI CNC M70 Series Specifications List

○: Standard　△: Option　☆: Plan　□: Selection

PageClass

M system L system

M70 Series

M70 T

yp

e

B

M70 T

yp

e

A

M70 T

yp

e

B

M70 T

yp

e

A

○: Standard　△: Option　☆: Plan　□: Selection

PageClass

M system L system

M70 Series

4. Feed

II - 33

4.1 Feed rate

II - 34

4.1.1 Rapid traverse rate (m/min)

1000 1000 1000 1000 II - 34

4.1.2 Cutting feed rate (m/min)

1000 1000 1000 1000 II - 35

4.1.3 Manual feed rate (m/min)

1000 1000 1000 1000 II - 36

4.1.4 Rotary axis command speed tenfold

○○○○

II - 36

4.2 Feed rate input methods

II - 37

4.2.1 Feed per minute

○○○○

II - 37

4.2.2 Feed per revolution

○○○○

II - 39

4.2.3 Inverse time feed

―

○

――II - 41

4.2.4 F 1-digit feed

○○○○

II - 42

4.2.5 Manual speed command

○○○○

II - 43

4.3 Override

II - 44

4.3.1 Rapid traverse override

○○○○

II - 44

4.3.2 Cutting feed override

○○○○

II - 44

4.3.3 2nd cutting feed override

○○○○

II - 44

4.3.4 Override cancel

○○○○

II - 45

4.4 Acceleration/Deceleration

II - 46

4.4.1 Automatic acceleration/deceleration after interpolation

○○○○

II - 46

4.4.2 Rapid traverse constant inclination acceleration/deceleration

○○○○

II - 48

4.4.3 Rapid traverse constant inclination multi-step acceleration/deceleration

○○

――II - 51

4.5 Thread cutting

II - 53

4.5.1 Thread cutting (Lead/Thread number designation)

○○○○

II - 53

4.5.2 Variable lead thread cutting

――

○○

II - 55

4.5.3 Synchronous tapping (with digital I/F spindle)

II - 56

4.5.3.1 Synchronous tapping cycle

○○○○

II - 56

4.5.3.2 Pecking tapping cycle

○○

―

☆

II - 58

4.5.3.3 Deep-hole tapping cycle

○○

――II - 60

4.5.4 Chamfering

――

○○

II - 62

4.5.8 High-speed synchronous tapping

―

○

―

○

II - 62

4.6 Manual feed

II - 63

4.6.1 Manual rapid traverse

○○○○

II - 63

4.6.2 Jog feed

○○○○

II - 64

4.6.3 Incremental feed

○○○○

II - 65

4.6.4 Handle feed

○○○○

II - 65

4.6.5 Manual feed rate B

○○○○

II - 66

4.7 Dwell

II - 67

4.7.1 Dwell (Time-based designation)

○○○○

II - 67

5. Program memory/editing

II - 69

5.1 Memory capacity

II - 70

5.1.1 Memory capacity (number of programs stored)

II - 70

5.1.1.5 230KB[600m] (400 programs)

○○○○

II - 70

5.2 Editing

II - 71

5.2.1 Program editing

○○○○

II - 71

5.2.2 Background editing

○○○○

II - 72

5.2.3 Buffer correction

○○○○

II - 73

M70 T

yp

e

B

M70 T

yp

e

A

M70 T

yp

e

B

M70 T

yp

e

A

○: Standard　△: Option　☆: Plan　□: Selection

PageClass

M system L system

M70 Series

6. Operation and display

II - 75

6.1 Structure of operation/display panel

II - 76

6.1.1 Color display(8.4-type LCD TFT)

□□□□

II - 76

6.1.2 Color display(10.4-type LCD TFT)

□□□□

II - 76

6.1.6 Color touch-panel display(10.4-type LCD TFT)

□□□□

II - 76

6.2 Operation methods and functions

II - 77

6.2.1 Operation input

○○○○

II - 77

6.2.2 Absolute value/Incremental value setting

○○○○

II - 77

6.2.5 Displayed part system switch

―――

○

II - 78

6.2.6 Menu list

○○○○

II - 78

6.2.7 Display switch by operation mode

○○○○

II - 78

6.2.8 External signal display switch

―――

○

II - 78

6.2.10 Screen saver, backlight OFF

○○○○

II - 78

6.2.11 Parameter/Operation guidance

○○○○

II - 79

6.2.12 Alarm guidance

○○○○

II - 79

6.2.15 Screen Capture

○○○○

II - 79

6.2.16 User selectable menu configuration

○○○○

II - 79

6.2.18 Device open parameter

○○○○

II - 80

6.2.19 SRAM open parameter

○○○○

II - 80

6.3 Display methods and contents

II - 81

6.3.1 Status display

○○○○

II - 81

6.3.2 Clock display

○○○○

II - 81

6.3.3 Operation screen display

○○○○

II - 81

6.3.4 Preparation screen display

○○○○

II - 82

6.3.5 Edit screen display

○○○○

II - 82

6.3.6 Diagnosis screen display

○○○○

II - 82

6.3.7 Maintenance screen display

○○○○

II - 82

6.3.8 Additional languages

II - 83

6.3.8.1 Japanese

□□□□

II - 83

6.3.8.2 English

○○○○

II - 83

6.3.8.3 German

□□□□

II - 83

6.3.8.4 Italian

□□□□

II - 83

6.3.8.5 French

□□□□

II - 83

6.3.8.6 Spanish

□□□□

II - 83

6.3.8.7 Chinese

II - 83

6.3.8.7.1 Traditional Chinese characters

□□□□

II - 83

6.3.8.7.2 Simplified Chinese characters

□□□□

II - 83

6.3.8.8 Korean

□□□□

II - 84

6.3.8.9 Portuguese

□□□□

II - 84

6.3.8.10 Hungarian

□□□□

II - 84

6.3.8.11 Dutch

□□□□

II - 84

6.3.8.12 Swedish

□□□□

II - 84

6.3.8.13 Turkish

□□□□

II - 84

6.3.8.14 Polish

□□□□

II - 84

6.3.8.15 Russian

□□□□

II - 84

6.3.8.16 Czech

□□□□

II - 84

7. Input/Output functions and devices

II - 85

7.1 Input/Output data

II - 86

7.1.1 Machining program input/output

○○○○

II - 86

7.1.2 Tool offset data input/output

○○○○

II - 86

7.1.3 Common variable input/output

○○○○

II - 86

7.1.4 Parameter input/output

○○○○

II - 86

7.1.5 History data output

○○○○

II - 86

7.1.7 System configuration data output

○○○○

II - 86

7.2 Input/Output I/F

II - 87

7.2.1 RS-232C　I/F

○○○○

II - 87

7.2.2 IC card I/F

II - 88

7.2.2.2 Front IC card I/F

○○○○

II - 88

7.2.3 Ethernet I/F

○○○○

II - 88

7.3 Computer link

II - 89

7.3.1 Computer link B

○○○○

II - 89

M70 T

yp

e

B

M70 T

yp

e

A

M70 T

yp

e

B

M70 T

yp

e

A

○: Standard　△: Option　☆: Plan　□: Selection

PageClass

M system L system

M70 Series

8. Spindle, Tool and Miscellaneous functions

II - 91

8.1 Spindle functions (S)

II - 92

8.1.1 Spindle control functions

II - 92

8.1.1.1 Spindle digital I/F

○○○○

II - 93

8.1.1.2 Spindle analog I/F

○○○○

II - 93

8.1.1.3 Coil switch

○○○○

II - 93

8.1.1.4 Automatic coil switch

○○○○

II - 93

8.1.1.5 Encoder input I/F

○○○○

II - 94

8.1.2 S code output

○○○○

II - 96

8.1.3 Constant surface speed control

○○○○

II - 97

8.1.4 Spindle override

○○○○

II - 98

8.1.5 Multiple-spindle control

II - 99

8.1.5.1 Multiple-spindle control I

――

○○

II - 100

8.1.5.2 Multiple-spindle control II

○○○○

II - 100

8.1.6 Spindle orientation

○○○○

II - 101

8.1.7 Spindle position control (Spindle/C axis control)

○○○○

II - 103

8.1.8 Spindle synchronization

II - 104

8.1.8.1 Spindle synchronization I

―――

○

II - 104

8.1.8.2 Spindle synchronization II

―――

○

II - 104

8.1.9 Tool spindle synchronization I (Polygon)

II - 105

8.1.9.1 Tool spindle synchronization I A (Spindle-Spindle, Polygon)

―――

○

II - 105

8.1.9.2 Tool spindle synchronization I B (Spindle-Spindle, Polygon)

―――

○

II - 106

8.1.9.3 Tool spindle synchronization I C (Spindle-NC axis, Polygon)

―――

○

II - 107

8.1.10 Tool spindle synchronization II (Hobbing)

―――

○

II - 108

8.2 Tool functions (T)

II - 109

8.2.1 Tool functions (T command)

○○○○

II - 109

8.3 Miscellaneous functions (M)

II - 110

8.3.1 Miscellaneous functions

○○○○

II - 110

8.3.2 Multiple M codes in 1 block

○○○○

II - 111

8.3.3 M code independent output

○○○○

II - 111

8.3.4 Miscellaneous function finish

○○○○

II - 112

8.3.5 M code output during axis traveling

―――

○

II - 113

8.4 2nd miscellaneous functions (B)

II - 114

8.4.1 2nd miscellaneous functions

○○○○

II - 114

9. Tool compensation

II - 115

9.1 Tool length/Tool position

II - 116

9.1.1 Tool length compensation

○○○○

II - 116

9.1.2 Tool position offset

○○

――II - 119

9.1.3 Tool compensation for additional axes

――

○○

II - 119

9.2 Tool radius

II - 120

9.2.1 Tool radius compensation

○○

――II - 120

9.2.3 Tool nose radius compensation (G40/41/42)

――

○○

II - 122

9.2.4 Automatic decision of nose radius compensation direction (G46/40)

――

○○

II - 123

9.2.5 Tool radius compensation diameter designation

○○○○

II - 123

9.3 Tool offset amount

II - 124

9.3.1 Number of tool offset sets

II - 124

9.3.1.3 80 sets

――

○○

II - 124

9.3.1.5 400 sets

○○

――II - 124

9.3.2 Offset memory

II - 125

9.3.2.1 Tool shape/wear offset amount

○○○○

II - 125

M70 T

yp

e

B

M70 T

yp

e

A

M70 T

yp

e

B

M70 T

yp

e

A

○: Standard　△: Option　☆: Plan　□: Selection

PageClass

M system L system

M70 Series

10. Coordinate system

II - 129

10.1 Coordinate system type and setting

II - 130

10.1.1 Machine coordinate system

○○○○

II - 131

10.1.2 Coordinate system setting

○○○○

II - 132

10.1.3 Automatic coordinate system setting

○○○○

II - 134

10.1.4 Workpiece coordinate system selection

II - 135

10.1.4.1 Workpiece coordinate system selection (6 sets)

○○○○

II - 135

10.1.4.2 Extended workpiece coordinate system selection (48 sets) G54.1P1 t

o

○○○○

II - 137

10.1.5 External workpiece coordinate offset

○○○○

II - 138

10.1.6 Workpiece coordinate system preset (G92.1)

――

○○

II - 139

10.1.7 Local coordinate system

○○○○

II - 140

10.1.8 Coordinate system for rotary axis

○○○○

II - 142

10.1.9 Plane selection

○○○○

II - 143

10.1.10 Origin set/Origin cancel

○○○○

II - 144

10.1.11 Counter set

○○○○

II - 146

10.2 Return

II - 147

10.2.1 Manual reference position return

○○○○

II - 147

10.2.2 Automatic 1st reference position return

○○○○

II - 148

10.2.3 2nd, 3rd, 4th reference position return

○○○○

II - 150

10.2.4 Reference position check

○○○○

II - 151

10.2.5 Absolute position detection

○○○○

II - 152

10.2.6 Tool exchange position return

○○○○

II - 153

11. Operation support functions

II - 155

11.1 Program control

II - 156

11.1.1 Optional block skip

○○○○

II - 156

11.1.2 Optional block skip addition

○○○○

II - 157

11.1.3 Single block

○○○○

II - 157

11.2 Program test

II - 158

11.2.1 Dry run

○○○○

II - 158

11.2.2 Machine lock

○○○○

II - 158

11.2.3 Miscellaneous function lock

○○○○

II - 159

11.2.4 Graphic check

II - 159

11.2.4.1 Graphic check

○○○○

II - 159

11.2.5 Graphic trace

○○○○

II - 160

11.2.6 Machining time computation

○○○○

II - 160

11.3 Program search/start/stop

II - 161

11.3.1 Program search

○○○○

II - 161

11.3.2 Sequence number search

○○○○

II - 161

11.3.3 Verification stop

○○○○

II - 162

11.3.4 Program restart

○○○○

II - 163

11.3.5 Automatic operation start

○○○○

II - 163

11.3.6 NC reset

○○○○

II - 164

11.3.7 Feed hold

○○○○

II - 164

11.3.8 Search & Start

○○○○

II - 165

11.4 Interrupt operation

II - 166

11.4.1 Manual interruption

○○○○

II - 166

11.4.2 Automatic operation handle interruption

○○○○

II - 167

11.4.3 Manual absolute switch

○○○○

II - 168

11.4.4 Thread cutting cycle retract

――

○○

II - 170

11.4.5 Tapping retract

○○○○

II - 171

11.4.6 Manual numerical value command

○○○○

II - 172

11.4.7 Arbitrary reverse run

―

○

――II - 173

11.4.8 MDI interruption

○○○○

II - 174

11.4.9 Simultaneous operation of manual and automatic modes

○○○○

II - 175

11.4.10 Simultaneous operation of JOG and handle modes

○○○○

II - 176

11.4.11 Reference position retract

○○○○

II - 176

11.4.13 Skip retract

○○

――II - 177

11.4.14 PLC interruption

○○○○

II - 177

M70 T

yp

e

B

M70 T

yp

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A

M70 T

yp

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B

M70 T

yp

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A

○: Standard　△: Option　☆: Plan　□: Selection

PageClass

M system L system

M70 Series

12. Program support functions

II - 179

12.1 Machining method support functions

II - 180

12.1.1 Program

II - 180

12.1.1.1 Subprogram control

○8 layers ○8 layers ○8 layers ○8 layers II - 180

12.1.1.3 Scaling

○○

――II - 182

12.1.1.4 Axis name switch

――

○○

II - 183

12.1.2 Macro program

II - 184

12.1.2.1 User macro

○4 layers ○4 layers ○4 layers ○4 layers II - 184

12.1.2.2 Machine tool builder macro

○○○○

II - 187

12.1.2.3 Macro interruption

○○○○

II - 188

12.1.2.4 Variable command

II - 189

12.1.2.4.3 300 sets

――

○

― II - 190

12.1.2.4.5 700 sets

○○

―

○

II - 190

12.1.2.4.10 (600+100×number of part systems) sets

―――

○

II - 190

12.1.3 Fixed cycle

II - 191

12.1.3.1 Fixed cycle for drilling

○○○○

II - 192

12.1.3.2 Fixed cycle for drilling (Type II)

――

○○

II - 197

12.1.3.3 Special fixed cycle

○○

――II - 198

12.1.3.4 Fixed cycle for turning machining

――

○○

II - 202

12.1.3.5 Compound type fixed cycle for turning machining

――

○○

II - 207

12.1.3.6 Compound type fixed cycle for turning machining (Type II)

――

○○

II - 216

12.1.3.7 Small-diameter deep-hole drilling cycle

―

○

――II - 217

12.1.4 Mirror image

II - 218

12.1.4.1 Mirror image by parameter setting

○○○○

II - 218

12.1.4.2 Mirror image by external input

○○○○

II - 218

12.1.4.3 Mirror image by G code

○○

――II - 219

12.1.4.4 Mirror image for facing tool posts

―――

○

II - 220

12.1.4.5 T code mirror image for facing tool posts

―――

○

II - 221

12.1.5 Coordinate system operation

II - 222

12.1.5.1 Coordinate rotation by program

○○

――II - 222

12.1.6 Dimension input

II - 224

12.1.6.1 Corner chamfering/Corner R

○○○○

II - 224

12.1.6.2 Linear angle command

○○○○

II - 230

12.1.6.3 Geometric command

○○○○

II - 231

12.1.6.4 Polar coordinate command

○○

――II - 235

12.1.7 Axis control

II - 236

12.1.7.1 Chopping

II - 236

12.1.7.1.1 Chopping

○○○○

II - 236

12.1.7.2 Normal line control

―

○

――II - 238

12.1.7.3 Circular cutting

○○

――II - 239

12.1.8 Multi-part system control

II - 240

12.1.8.1 Timing synchronization between part systems

―――

○

II - 240

12.1.8.2 Start point designation timing synchronization

―――

○

II - 241

12.1.8.3 Mixed synchronization control

―――

○

II - 243

12.1.8.5 Control axis synchronization across part systems

―――

○

II - 244

12.1.8.6 Balance cut

―――

○

II - 245

12.1.8.7 Common memory for part systems

―――

○

II - 246

12.1.8.8 2-part system synchronous thread cutting

―――

○

II - 247

12.1.8.9 Multi-part system program management

―――

○

II - 249

12.1.9 Data input by program

II - 251

12.1.9.1 Parameter input by program

○○○○

II - 251

12.1.9.2 Compensation data input by program

○○○○

II - 252

12.1.10 Machining modal

II - 254

12.1.10.1 Tapping mode

○○○○

II - 254

12.1.10.2 Cutting mode

○○○○

II - 254

M70 T

yp

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B

M70 T

yp

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A

M70 T

yp

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B

M70 T

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A

○: Standard　△: Option　☆: Plan　□: Selection

PageClass

M system L system

M70 Series

12.2 Machining accuracy support functions

II - 255

12.2.1 Automatic corner override

○○○○

II - 255

12.2.2 Deceleration check

II - 257

12.2.2.1 Exact stop check mode

○○○○

II - 258

12.2.2.2 Exact stop check

○○○○

II - 258

12.2.2.3 Error detection

○○○○

II - 259

12.2.2.4 Programmable in-position check

○○○○

II - 259

12.3 High-speed and high-accuracy functions

II - 260

12.3.1 High-speed machining mode I (G5P1)

○○

――II - 260

12.3.2 High-speed machining mode II (G5P2)

― ○33m ――II - 262

12.3.3 High-speed high-accuracy control 1 (G5.1Q1)

○16m ○16m ――II - 264

12.3.4 High-speed high-accuracy control 2 (G5P10000)

― ○33m ――II - 265

12.3.5 High-accuracy control1(G61.1/G08)

○○

――II - 268

12.4 Programming support functions

II - 272

12.4.1 Playback

○○

――II - 272

12.4.3 Simple programming

○○○○

II - 272

12.4.4 G code guidance

○○○○

II - 273

13. Machine accuracy compensation

II - 275

13.1 Static accuracy compensation

II - 276

13.1.1 Backlash compensation

○○○○

II - 276

13.1.2 Memory-type pitch error compensation

○○○○

II - 277

13.1.3 Memory-type relative position error compensation

○○○○

II - 278

13.1.4 External machine coordinate system compensation

○○○○

II - 278

13.1.5 Circular error radius compensation

○○○○

II - 279

13.1.6 Ball screw thermal expansion compensation

○○○○

II - 280

13.1.8 Position-dependent gradually increasing-type backlash compensation

○○○○

II - 282

13.1.9 Two-way pitch error compensation

○○○○

II - 283

13.2 Dynamic accuracy compensation

II - 284

13.2.1 Smooth high-gain (SHG) control

○○○○

II - 284

13.2.2 Dual feedback

○○○○

II - 286

13.2.3 Lost motion compensation

○○○○

II - 287

13.2.4 OMR II (Backlash with filter)

○○○○

II - 287

14. Automation support functions

II - 289

14.1 Measurement

II - 290

14.1.1 Skip

II - 290

14.1.1.1 Skip

○○○○

II - 290

14.1.1.2 Multiple-step skip

○○○○

II - 292

14.1.1.4 PLC skip

○○○○

II - 293

14.1.2 Automatic tool length measurement

○○○○

II - 294

14.1.3 Manual tool length measurement 1

○○○○

II - 297

14.1.4 Manual tool length measurement 2

○○○○

II - 299

14.1.5 Workpiece coordinate offset measurement

――

○○

II - 301

14.1.6 Workpiece position measurement

○○

――II - 302

14.1.7 Rotation measurement

○○

――II - 305

14.2 Tool life management

II - 306

14.2.1 Tool life management

II - 306

14.2.1.1 Tool life management I

○○○○

II - 306

14.2.1.2 Tool life management II

○○○○

II - 307

14.2.1.3 Tool life management III

○○○○

II - 307

14.2.2 Number of tool life management sets

II - 308

14.2.2.1 80 sets

――

○○

II - 308

14.2.2.2 200 sets

○○

――II - 308

14.3 Others

II - 309

14.3.1 Programmable current limitation

○○○○

II - 309

M70 T

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M70 T

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M70 T

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M70 T

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○: Standard　△: Option　☆: Plan　□: Selection

PageClass

M system L system

M70 Series

15. Safety and maintenance

II - 311

15.1 Safety switches

II - 312

15.1.1 Emergency stop

○○○○

II - 312

15.1.2 Data protection key

○○○○

II - 312

15.2 Display for ensuring safety

II - 313

15.2.1 NC warning

○○○○

II - 313

15.2.2 NC alarm

○○○○

II - 313

15.2.3 Operation stop cause

○○○○

II - 314

15.2.4 Emergency stop cause

○○○○

II - 314

15.2.5 Thermal detection

○○○○

II - 315

15.2.6 Battery alarm/warning

○○○○

II - 316

15.3 Protection

II - 317

15.3.1 Stroke end (Over travel)

○○○○

II - 317

15.3.2 Stored stroke limit

II - 317

15.3.2.1 Stored stroke limit I/II

○○○○

II - 318

15.3.2.2 Stored stroke limit IB

○○○○

II - 320

15.3.2.3 Stored stroke limit IIB

○○○○

II - 321

15.3.2.4 Stored stroke limit IC

○○○○

II - 321

15.3.3 Stroke check before travel

○○

――II - 322

15.3.4 Chuck/Tailstock barrier check

――

○○

II - 323

15.3.5 Interlock

○○○○

II - 324

15.3.6 External deceleration

○○○○

II - 324

15.3.9 Door interlock

II - 325

15.3.9.1 Door interlock I

○○○○

II - 325

15.3.9.2 Door interlock II

○○○○

II - 326

15.3.10 Parameter lock

○○○○

II - 328

15.3.11 Program protection (Edit lock B, C)

○○○○

II - 328

15.3.12 Program display lock

○○○○

II - 328

15.3.13 Safety observation

○○○○

II - 329

15.3.14 Vertical axis pull-up

○○○○

II - 329

15.4 Maintenance and troubleshooting

II - 330

15.4.1 Operation history

○○○○

II - 330

15.4.2 Data sampling

○○○○

II - 330

15.4.3 NC data backup

○○○○

II - 331

15.4.4 MELDASNET

II - 331

15.4.4.2 Anshin-net service

○○○○

II - 331

15.4.5 Servo automatic tuning (Need separate PC S/W)

○○○○

II - 332

15.4.6 Automatic backup

○○○○

II - 334

15.4.7 System setup

○○○○

II - 334

M70 T

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M70 T

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A

M70 T

yp

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M70 T

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A

○: Standard　△: Option　☆: Plan　□: Selection

PageClass

M system L system

M70 Series

16. Drive system

II - 335

16.1 Servo/Spindle

II - 336

16.1.1 Feed axis

II - 336

16.1.1.1 MDS-D-V1/D-V2 (200V)

II - 336

16.1.1.1.1 Servo motor: HF**-A48 (260kp/rev)

□□□□

II - 336

16.1.1.1.2 Servo motor: HF**-A51 (1000kp/rev)

□□□□

II - 336

16.1.1.1.3 Servo motor: HF**-A74 (16000kp/rev)

□□□□

II - 336

16.1.1.1.4 Servo motor: HP**-A51 (1000kp/rev)

□□□□

II - 336

16.1.1.1.5 Servo motor: HP**-A74 (16000kp/rev)

□□□□

II - 336

16.1.1.1.6 Servo motor: HF-KP**JW04(260kp/rev)

□□□□

II - 336

16.1.1.2 MDS-DH-V1/DH-V2 (400V)

II - 337

16.1.1.2.1 Servo motor: HF**-A48 (260kp/rev)

□□□□

II - 337

16.1.1.2.2 Servo motor: HF-H**-A51 (1000kp/rev)

□□□□

II - 337

16.1.1.2.3 Servo motor: HF-H**-A74 (16000kp/rev)

□□□□

II - 337

16.1.1.2.4 Servo motor: HP-H**-A51 (1000kp/rev)

□□□□

II - 337

16.1.1.2.5 Servo motor: HP-H**-A74 (16000kp/rev)

□□□□

II - 337

16.1.1.3 MDS-D-SVJ3 (200V)

II - 338

16.1.1.3.1 Servo motor: HF**-A48(260kp/rev)

□□□□

II - 338

16.1.1.3.2 Servo motor: HF**-A51(1000kp/rev)

□□□□

II - 338

16.1.1.3.3 Servo motor: HF-KP**JW04(260kp/rev)

□□□□

II - 338

16.1.1.4 MDS-DM-V3/SPV2/SPV3(200V)

II - 339

16.1.1.4.1 Servo motor: HF**-A48(260kp/rev)

□□□□

II - 339

16.1.1.4.2 Servo motor: HF**-A51(1000kp/rev)

□□□□

II - 339

16.1.1.4.3 Servo motor: HF-KP**JW04-S6(260kp/rev)

□□□□

II - 339

16.1.2 Spindle

II - 340

16.1.2.1 MDS-D-SP (200V)

□□□□

II - 340

16.1.2.2 MDS-DH-SP (400V)

□□□□

II - 340

16.1.2.3 MDS-D-SPJ3 (200V)

□□□□

II - 340

16.1.2.4 MDS-D-SP2(200V)

□□□□

II - 340

16.1.2.5 MDS-DM-SPV2/SPV3(200V)

□□□□

II - 340

16.1.4 Power supply

II - 341

16.1.4.1 Power supply: MDS-D-CV (200V)

□□□□

II - 341

16.1.4.2 Power supply: MDS-DH-CV (400V)

□□□□

II - 341

16.1.4.3 AC reactor for power supply

□□□□

II - 341

16.1.4.4 Ground plate

□□□□

II - 341

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Mitsubishi Electric M70 Series Owner's manual

Mitsubishi Electric M70 Series Owner's manual

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